//@ run-pass //@ ignore-android //@ ignore-wasm32 no processes //@ ignore-sgx no processes #![feature(rustc_private)] extern crate libc; use std::process::{Command, Stdio}; use std::env; use std::io::{self, Read, Write}; #[cfg(unix)] unsafe fn without_stdio R>(f: F) -> R { let doit = |a| { let r = libc::dup(a); assert!(r >= 0); return r }; let a = doit(0); let b = doit(1); let c = doit(2); assert!(libc::close(0) >= 0); assert!(libc::close(1) >= 0); assert!(libc::close(2) >= 0); let r = f(); assert!(libc::dup2(a, 0) >= 0); assert!(libc::dup2(b, 1) >= 0); assert!(libc::dup2(c, 2) >= 0); return r } #[cfg(unix)] fn assert_fd_is_valid(fd: libc::c_int) { if unsafe { libc::fcntl(fd, libc::F_GETFD) == -1 } { panic!("file descriptor {} is not valid: {}", fd, io::Error::last_os_error()); } } #[cfg(windows)] fn assert_fd_is_valid(_fd: libc::c_int) {} #[cfg(windows)] unsafe fn without_stdio R>(f: F) -> R { type DWORD = u32; type HANDLE = *mut u8; type BOOL = i32; const STD_INPUT_HANDLE: DWORD = -10i32 as DWORD; const STD_OUTPUT_HANDLE: DWORD = -11i32 as DWORD; const STD_ERROR_HANDLE: DWORD = -12i32 as DWORD; const INVALID_HANDLE_VALUE: HANDLE = !0 as HANDLE; extern "system" { fn GetStdHandle(which: DWORD) -> HANDLE; fn SetStdHandle(which: DWORD, handle: HANDLE) -> BOOL; } let doit = |id| { let handle = GetStdHandle(id); assert!(handle != INVALID_HANDLE_VALUE); assert!(SetStdHandle(id, INVALID_HANDLE_VALUE) != 0); return handle }; let a = doit(STD_INPUT_HANDLE); let b = doit(STD_OUTPUT_HANDLE); let c = doit(STD_ERROR_HANDLE); let r = f(); let doit = |id, handle| { assert!(SetStdHandle(id, handle) != 0); }; doit(STD_INPUT_HANDLE, a); doit(STD_OUTPUT_HANDLE, b); doit(STD_ERROR_HANDLE, c); return r } fn main() { if env::args().len() > 1 { // Writing to stdout & stderr should not panic. println!("test"); assert!(io::stdout().write(b"test\n").is_ok()); assert!(io::stderr().write(b"test\n").is_ok()); // Stdin should be at EOF. assert_eq!(io::stdin().read(&mut [0; 10]).unwrap(), 0); // Standard file descriptors should be valid on UNIX: assert_fd_is_valid(0); assert_fd_is_valid(1); assert_fd_is_valid(2); return } // First, make sure reads/writes without stdio work if stdio itself is // missing. let (a, b, c) = unsafe { without_stdio(|| { let a = io::stdout().write(b"test\n"); let b = io::stderr().write(b"test\n"); let c = io::stdin().read(&mut [0; 10]); (a, b, c) }) }; assert_eq!(a.unwrap(), 5); assert_eq!(b.unwrap(), 5); assert_eq!(c.unwrap(), 0); // Second, spawn a child and do some work with "null" descriptors to make // sure it's ok let me = env::current_exe().unwrap(); let status = Command::new(&me) .arg("next") .stdin(Stdio::null()) .stdout(Stdio::null()) .stderr(Stdio::null()) .status().unwrap(); assert!(status.success(), "{} isn't a success", status); // Finally, close everything then spawn a child to make sure everything is // *still* ok. let status = unsafe { without_stdio(|| Command::new(&me).arg("next").status()) }.unwrap(); assert!(status.success(), "{} isn't a success", status); }